CN209638516U - A kind of Electric Actuator - Google Patents
A kind of Electric Actuator Download PDFInfo
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- CN209638516U CN209638516U CN201920140932.4U CN201920140932U CN209638516U CN 209638516 U CN209638516 U CN 209638516U CN 201920140932 U CN201920140932 U CN 201920140932U CN 209638516 U CN209638516 U CN 209638516U
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Abstract
The utility model relates to executing agency fields.A kind of Electric Actuator, including shell, and the geared system and driving motor of setting inside housings, and the drive shaft connection arrangement being arranged on shell, and the feedback switch component for controlling driving motor braking in time;The geared system includes driving gear component and feedback gear component;Driving gear component includes the motor gear being connected on the output shaft of driving motor, and the output gear being connected on output shaft attachment base side, and successively multiple driving cogs of engaged transmission between motor gear and output gear;The feedback gear component includes the attachment base feedback teeth portion being arranged on output shaft attachment base, and the feedback for the transmission that is meshed with attachment base feedback teeth portion fans tooth, and the feedback gear of transmission of being meshed with feedback fan tooth;Feedback gear is connected with feedback switch component.The Electric Actuator has structure simple, easy to use, the advantage that work efficiency is high.
Description
Technical field
The utility model relates to executing agency field more particularly to a kind of Electric Actuator.
Background technique
Electric Actuator, also referred to as electric operator (electrical executing fittings) are industrial automatic
Common valve actuator in control system is widely used in petrochemical industry, natural gas, metallurgical smelting, electric power, papermaking, steel
The automatic control system of the industry productions process such as iron, cement, municipal and environment-friendly, to meet the automation control that industrial production improves increasingly
Demand processed.Electric Actuator for connecting valve body, Electric Actuator is using motor be as driving source, with DC current control and
Feedback signal, when upper instrument or computer issue after controlling signal, Electric Actuator is acted according to signal magnitude ratio, is led to
Crossing output shaft makes valve or air door reach corresponding aperture, and system opening amount signal is fed back in control room, to complete
The regulatory function of system.
Technical solution disclosed in the Chinese patent literature of Publication No. CN205090056U is related to a kind of Electric Actuator.
In the first patented technology, Electric Actuator includes output shaft device, which includes output shaft, limit plate, folder
The lower end of tight block and tooth plate, the output shaft is inserted into the gear-box, and is limited radially with the gear-box by latch
Position connection, the gear-box lower surface is exposed in the lower end of the output shaft, and limits connection in the axial direction by retaining ring, described defeated
Shaft upper end is equipped with a fixed block in hollow shape, and the inside of the fixed block is equipped with two panels tooth plate arranged in parallel,
The gripping block is set to the inside of the fixed block, and is symmetrically set with the tooth plate, the gripping block by screw with
The fixed block is connected, and across two tooth plates, the limit plate is sleeved on the output shaft screw, and is located at
The lower section of the fixed block, the retaining ring is arc-shaped in opening, and opposite design has a lug, the lug with the opening
It bends downward, the lower end outside face of the output shaft is equipped with a circle retainer ring, and the retaining ring is caught in the retainer ring.But above-mentioned side
The case situation different there is the square drive axis thickness of air door in practice, although above scheme can be according to square drive axis
Thickness adjusts screw and realizes positioning, but its scheme not can guarantee square drive axis and drive shaft connection arrangement centralized positioning, especially
Be in the thinner situation of square drive axis, will there is the output end of square drive axis and geared system is inclined in above scheme
Heart positioning, generates shaking and noise, influences normal use when running actuator.
Existing Electric Actuator can be provided with release lever component, if Authorization Notice No. is in CN 205090057U
A kind of Electric Actuator release button component is disclosed in state's utility model patent document, which includes upper cover, release
Button and spring, the button release is as pressing and trigger unit, the smooth up and down motion on the direction perpendicular to gear-box, institute
Reset components of the spring as button release are stated, after user's operation terminates only, button release is popped up into reset, convenient for next time
Operation, above structure is simple, and user's operation is convenient, and is not easy to break down, even if dismantling and pacifying when maintenance
Dress is all more convenient, and maintenance cost is low.But the release button component needs in above-mentioned first patent formula can be seen that according to analysis
User's Continued depression button release can just be unlocked operation, and user needs to carry out one-handed performance in this case, very inconvenient.
In addition, existing Electric Actuator is generally arranged two microswitches, and by two cams respectively correspond two it is micro-
Dynamic switch;Band moving gear when actuator turns, gear axle portion drive cam rotation, trigger microswitch in cam rotation process,
Microswitch transmits signal.Currently, it is i.e. unadjustable relatively fixed after above-mentioned cam installation, therefore touch fine motion after assembling and open
Angle when pass can not be adjusted, and two microswitches of above-mentioned Electric Actuator correspond respectively to air door and completely close
(i.e. 0 °) and air door fully open (i.e. 90 °) two states;Its shortage is anti-in shutdown of the door opening angle between 0 ~ 90 °
Feedback, therefore can only be very inconvenient by taking shutdown in time after manually external equipment being used to observe dampers angular.
In place of above-mentioned the deficiencies in the prior art, the utility model is quasi- to provide a kind of Electric Actuator of new construction, mentions
The working efficiency of Electric Actuator is risen, and gradually solves above-mentioned technical problem in further preferred embodiment.
Summary of the invention
To solve the above-mentioned problems, the purpose of this utility model is to provide a kind of Electric Actuator, the Electric Actuator
Advantage simple with structure, easy to use, that work efficiency is high.
In order to achieve the above purpose, the utility model uses technical solution below:
A kind of Electric Actuator, including shell, and the geared system and driving motor of setting inside housings, Yi Jishe
Set the drive shaft connection arrangement on shell, and the feedback switch component for controlling driving motor braking in time;Its feature
Be: the geared system includes bottom plate and top plate, and positions driving gear component between the bottom panel and top panel and feedback
Gear assembly;Driving gear component includes the motor gear being connected on the output shaft of driving motor, and is connected to output shaft
Output gear on attachment base side, and successively multiple driving cogs of engaged transmission between motor gear and output gear;
Multiple driving cogs include the first driving cog being successively meshed, the second driving cog, third driving cog and the 4th driving cog, and first passes
Movable tooth is meshed with motor gear, and the 4th driving cog is meshed with output gear;First driving cog is carried out by the first locating shaft
Positioning, the first driving cog can be adjusted axially with respect to the first locating shaft realization and motor gear, the second driving cog disengaging or nibble
It closes;The feedback gear component includes the attachment base feedback teeth portion being arranged on output shaft attachment base, and is fed back with attachment base
Teeth portion is meshed the feedback fan tooth of transmission, and the feedback gear of transmission of being meshed with feedback fan tooth;Feedback gear is opened with feedback
Component is closed to be connected.
Preferably, the feedback switch component includes the fixation camshaft being fixedly connected with feedback gear, and it is arranged
Adjusting knob on adjustable convex wheel shaft on fixed camshaft, and connection adjustable convex wheel shaft, and be set on the base
Microswitch seat;The fixed camshaft is equipped with the first cam part and second with feedback gear synchronous rotary, fixed camshaft
Cam part;Circumferential linkage is realized between adjustable convex wheel shaft and fixed camshaft within the scope of the dynamics of restriction, is more than restriction dynamics model
It encloses, adjustable convex wheel shaft and fixed camshaft can be made to generate circumferentially opposed movement, adjustable convex wheel shaft is equipped with third cam part;Institute
The first cam part, the second cam part and third cam part is stated in axial direction to arrange;The microswitch seat is equipped with and first
Cam part, the second cam part and third cam part are distributed corresponding first microswitch, the second microswitch and third fine motion
Switch.The feedback switch component includes the fixation camshaft being fixedly connected with feedback gear, and is set on fixed camshaft
Adjustable convex wheel shaft, and the adjusting knob on connection adjustable convex wheel shaft, and the microswitch seat being set on the base.Its
In, it is to correspond respectively to dampers angular that the first cam part, which triggers the first microswitch and the second cam part the second microswitch of triggering,
0 ° and 90 °;Meanwhile fixed camshaft also will drive the rotation of adjustable convex wheel shaft, the third cam part triggering on adjustable convex wheel shaft
Third microswitch is used to shut down in 0 ~ 90 ° of air port range internal trigger of setting.Further, pass through external force rotation of adjustment knob
Circumferentially opposed movement is generated to drive adjustable convex wheel shaft and fix camshaft, then third cam part can be made to correspond to different air doors
Angle.Therefore, which can be realized the automatic control of different dampers angulars, and use is more convenient.
Preferably, the adjusting knob and adjustable convex wheel shaft realize circumferential linkage using grafting.
Preferably, the adjusting knob is embedded in inside upper cover, the upper lid surface mark on adjusting knob periphery is angled.
Preferably, the inside of the adjustable convex wheel shaft is equipped with spline, the upper end of fixed camshaft is set along its circumferential direction
There is multi-disc support claw, when adjustable cam axis is socketed on fixed camshaft, the multi-disc support claw on fixed camshaft is by adjustable convex
Axle end penetrates in spline, and the lateral wall of support claw is equipped with the tooth matched with spline.
Preferably, further including the release lever component for acting on the first driving cog, first below the first driving cog is fixed
Volute spring is arranged on the axis of position;The release lever component, including guide post, and the unlock being movably set in guide post
Handle;Guide post is vertically located on bottom plate, and release lever is set in guide post and can be along guide post axial direction up and down adjustment;
It is characterized by also including the return springs being sheathed below release lever, and act on the unblock button of release lever;Institute
It states unblock button to be mounted on shell, being at least partially exposed to shell enables staff to operate on it, and solves
Buckle fixation can be formed in pressed status with shell by locking button.In the release lever component, including guide post, and activity
The release lever being set in guide post, and it is sheathed on the return spring below release lever, and act on release lever
Unblock button.Wherein, unblock button can form buckle with shell in pressed status and fix, thus after removing external force still
So be able to maintain unlocked state, it is necessary to the snapping relationship that external force releases above-mentioned unblock button and shell could be in return spring
Lower realize of effect resets.Therefore operator can vacate hand and carry out other operations, using more without pinning unblock button always
For convenience.
Preferably, the lower end of the release lever is equipped with annular portion, the top of annular portion is equipped with projecting ring section;Return spring
Lower end offset with bottom plate, the lower end of return spring rotates inward a circle and wraps guide post;Return spring is surrounded and is coated on
On the outside of annular portion, upper end and the projecting ring section of return spring offset.
Preferably, the shell includes pedestal, and the upper cover being covered on pedestal;The upper cover side wall is equipped with upper
For lid notch for placing unblock button, unblock button includes the button body and button end plate of integrated injection molding, button end plate
Middle part connect with button body by dowel, constitute between button end plate and button body in dowel two sides up and down
Upper gap and lower gap;The upper end of the button end plate is equipped with buckle step, and the side wall of upper cover is in buckle step and button
Between main body;In non-unlocked state, the outer side surface of the inner end and upper cover that buckle step offsets;When unlocked, it presses
Button end plate elastic reset, the upper cover gap edge for buckling step and upper cover buckle.
Preferably, the drive shaft connection arrangement includes being connected on geared system terminal part and being driven by geared system
The output shaft attachment base of rotation, and the output shaft connector being fixed on output shaft attachment base, and it is connected to output shaft company
Connect the adjusting component on device;The adjusting component includes U-shaped adjusting bracket, and U-shaped adjusting bracket is by two U-shaped arms relative to defeated
Mandrel connector is adjusted out, adjusts direction along the axial direction of U-shaped arm;It is additionally provided with and holds down assembly on the output shaft connector, press
Tight component includes the compact heap in the U-shaped opening in U-shaped adjusting bracket, and the driving compact heap is adjusted relative to U-shaped
The adjusting screw rod that bracket is adjusted constitutes the clamping opening of positioning square drive axis between compact heap and the U-shaped bottom of U-shaped adjusting bracket.
Preferably, two U-shaped arms of the U-shaped adjusting bracket pass through output shaft connector, and U-shaped arm is close to U-shaped
One section of opening is thread segment, is connected with nut on thread segment, the position of U-shaped adjusting bracket can be adjusted by turning nut;Described
The U-shaped opening that adjusting screw rod is threaded through U-shaped adjusting bracket is interior and parallel with the U-shaped arm of U-shaped adjusting bracket, and adjusting screw rod is opposite
It is engaged in output shaft connector screw thread, inner end and the compact heap of adjusting screw rod offset.The drive shaft connection arrangement includes output
Mandrel connector, which is equipped with, to be adjusted component and holds down assembly;Adjusting component includes U-shaped adjusting bracket, is held down assembly including in U-shaped tune
Save the compact heap in the U-shaped opening of bracket.When above-mentioned drive shaft connection arrangement positioning square drive axis, first by compact heap and U-shaped
Clamping opening between the U-shaped bottom of adjusting bracket tunes up, and square drive axis is inserted into output shaft connector, then adjusts U simultaneously
Shape adjusting bracket and adjusting screw rod keep U-shaped adjusting bracket and compact heap relative motion close, and clamping opening reduces positioning square drive
Axis;And the adjusting of U-shaped adjusting bracket and adjusting screw rod can be adaptively adjusted, i.e., U-shaped adjusting bracket adjustment amount hour can also
The adjustment amount of adjusting screw rod is increased, therefore certifiable square drive axis is adaptively adjusted is connected with exporting axis in device according to above-mentioned
Heart position consistency avoids actuator caused by eccentric setting from shaking.
By adopting the above technical scheme, which is related to a kind of Electric Actuator to the utility model.The Electric Actuator
In, drive shaft connection arrangement is used to connect the square drive axis of air door, and driving motor drives transmission shaft by driving gear component
Attachment device and thereon square drive axis rotation;And the output shaft attachment base rotational angle in drive shaft connection arrangement passes through instead
Feedback gear assembly passes to feedback switch component, and feedback switch component can be realized the automatic control of different dampers angulars.Therefore,
The Electric Actuator has structure simple, easy to use, the advantage that work efficiency is high.
Detailed description of the invention
Fig. 1 is the first structural schematic diagram of drive shaft connection arrangement in the utility model.
Fig. 2 is second of structural schematic diagram of drive shaft connection arrangement in the utility model.
Fig. 3 is the axle sleeve schematic diagram in second of structure of drive shaft connection arrangement.
Fig. 4 is the drive mechanism stereoscopic schematic diagram of Electric Actuator.
Fig. 5 is the drive mechanism floor map of Electric Actuator.
Fig. 6 is the drive mechanism partial sectional view of Electric Actuator.
Fig. 7 is that release lever component is in non-unlocked state schematic diagram.
Fig. 8 is release lever component schematic diagram in the unlocked state.
Fig. 9 is the structural schematic diagram of volute spring.
Figure 10 is the release lever scheme of installation in release lever component.
Figure 11 is the structural schematic diagram of unblock button.
Figure 12 is the cross-sectional view of feedback switch component.
Figure 13 is the perspective view of feedback switch component.
Figure 14 is adjustable convex wheel shaft and fixed camshaft assembling schematic diagram in feedback switch component.
Specific embodiment
The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning
Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng
The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and should not be understood as to the utility model
Limitation.
In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width
Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", " up time
The orientation or positional relationship of the instructions such as needle ", " counterclockwise " is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of
Describe the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have a particular orientation,
It is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.
In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance
Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or
Implicitly include one or more of the features.In the description of the present invention, unless otherwise indicated, the meaning of " multiple "
It is two or more, unless otherwise restricted clearly.
In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu
It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected;It can
To be mechanical connection, it is also possible to be electrically connected;It can be directly connected, can also can be indirectly connected through an intermediary
Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood as the case may be
Concrete meaning in the present invention.
In the present invention unless specifically defined or limited otherwise, fisrt feature the "upper" of second feature or it
"lower" may include that the first and second features directly contact, and also may include that the first and second features are not direct contacts but lead to
Cross the other characterisation contact between them.Moreover, fisrt feature includes above the second feature " above ", " above " and " above "
One feature is right above second feature and oblique upper, or is merely representative of first feature horizontal height higher than second feature.First is special
Sign is directly below and diagonally below the second feature including fisrt feature under the second feature " below ", " below " and " below ", or only
Indicate that first feature horizontal height is less than second feature.
A kind of Electric Actuator as shown in Fig. 1 ~ 14, including shell 1, and the geared system inside shell 1 is set
With driving motor 2, and the drive shaft connection arrangement being arranged on shell 1.The drive shaft connection arrangement is for connecting air door
Square drive axis, the output end of driving motor 2 drives the rotation of square drive axis by geared system, to realize adjustment air door
The purpose of angle.The technical solution as disclosed in the Chinese patent literature of the Publication No. CN205090056U in background technique
In, output shaft device can fast implement being connected and fixed for the square drive axis of air door.But there is the rectangular of air door in practice
The different situation of transmission shaft thickness, although above scheme, which can adjust screw according to square drive axis thickness, realizes positioning, its
Scheme not can guarantee square drive axis and drive shaft connection arrangement centralized positioning, especially in the thinner situation of square drive axis
Under, in above scheme will there is the output end bias of square drive axis and geared system to position, production when running actuator
Raw shaking and noise, influence normal use.Based on drawbacks described above, the application uses following two embodiment.It is a kind of wherein
In embodiment, drive shaft connection arrangement as shown in Figure 1 includes being connected on geared system terminal part and being driven by geared system
The output shaft attachment base 31 of rotation, and the output shaft connector 32 being fixed on output shaft attachment base 31, and be connected to defeated
It the adjusting component on mandrel connector 32 and holds down assembly out.The adjusting component includes U-shaped adjusting bracket 33, U-shaped adjusting bracket
33 are adjusted by two U-shaped arms relative to output shaft connector 32, adjust direction along the axial direction of U-shaped arm;It is being embodied
In scheme, two U-shaped arms of U-shaped adjusting bracket 33 pass through output shaft connector 32, and U-shaped arm is being close to one section of U-shaped opening
Thread segment 331, thread segment 331 refer to that this section of U-shaped arm is equipped with external screw thread, nut 34 are connected on thread segment 331, by turning
Nut 34 is the position of adjustable U-shaped adjusting bracket 33.It is described to hold down assembly including the U-shaped opening for being in U-shaped adjusting bracket 33
Interior compact heap 35, and the adjusting screw rod 36 that the driving compact heap 35 is adjusted relative to U-shaped adjusting bracket 33;The tune
Section screw rod 36 is threaded through in the U-shaped opening of U-shaped adjusting bracket 33, and parallel with the U-shaped arm of U-shaped adjusting bracket 33, adjusts spiral shell
The inner end of bar 36 offsets with compact heap 35.The adjusting screw rod 36 is engaged relative to 32 screw thread of output shaft connector, adjusts spiral shell
Bar 36 can be realized and be adjusted axially when rotating, so as to adjust compact heap 35 relative between the U-shaped bottom of U-shaped adjusting bracket 33
Away from;And the clamping opening of positioning square drive axis is constituted between compact heap 35 and the U-shaped bottom of U-shaped adjusting bracket 33, therefore adjust
Clamping opening size is realized square drive axis and is positioned.In addition, in order to avoid compact heap 35 is detached from U-shaped adjusting bracket 33, compact heap
35 both ends are equipped with targeting port, and two U-shaped arms of U-shaped adjusting bracket 33 are in targeting port, so that compact heap 35 be made to be only capable of
It could be detached from it from the U-shaped opening of U-shaped adjusting bracket 33.So in 35 moving process of compact heap, U-shaped adjusting bracket 33
U-shaped arm for compact heap 35 have guiding role, guarantee clamping opening be adapted with square drive axis.Using above-mentioned transmission axis connection
When device positions square drive axis, first the clamping opening between compact heap 35 and the U-shaped bottom of U-shaped adjusting bracket 33 is tuned up, it will be square
Shape transmission shaft is inserted into output shaft connector 32, is then adjusted U-shaped adjusting bracket 33 and adjusting screw rod 36 simultaneously, is adjusted U-shaped
Bracket 33 and 35 relative motion of compact heap are close, and clamping opening reduces positioning square drive axis;And U-shaped adjusting bracket 33 and adjusting screw rod
36 adjusting can be adaptively adjusted, i.e. 33 adjustment amount hour of U-shaped adjusting bracket can also increase the adjustment amount of adjusting screw rod 36,
Therefore according to it is above-mentioned be adaptively adjusted certifiable square drive axis be connected with exporting axis device 32 center it is consistent, avoid bias
Actuator shakes caused by setting.
In an alternate embodiment as shown in Figure 2, drive shaft connection arrangement includes being connected to geared system end
In portion and by the output shaft attachment base 31 of geared system driving rotation, and the output shaft being fixed on output shaft attachment base 31 connects
Connect device 32.The output shaft connector 32 includes ring body, and the positioning of square drive axis is threaded through inside ring body, by output shaft when use
Connector 32 drives square drive axis synchronous rotary.It is the inner sidewall in ring body and rectangular biography in a kind of wherein preferred embodiment
Axle sleeve 37 is equipped between moving axis.The axle sleeve 37 is specifically as shown in figure 3, including side round part 371 and the end of integrated injection molding
The lateral wall of ring portion 372, the side round part 371 is bonded with the matching of the shape of the inner sidewall of ring body, and the lateral wall of side round part 371
Including at least the position on two different circumferences, i.e., the lateral wall of the described side round part 371 cannot use positive round shape, such as
It preferentially is adopted as profiled shape shown in figure, to guarantee that ring body and axle sleeve 37 are circumferentially positioned, ring body is able to drive the synchronous rotation of axle sleeve 37
Turn.The inside of the side round part 371 is square hole compatible with the shape of square drive axis, and axle sleeve 37 is arranged tightly using interference
Wrap up column square drive axis.The side wall of the side round part 371 is equipped with notch 373, notch 373 and its internal square hole one end angle
It communicates.The end ring portion 372 is used to be covered on above the link position of ring body and side round part 371, on the one hand covers above-mentioned ring body
The special-shaped connecting portion constituted with side round part 371, reaches beauty function;On the other hand it is also convenient for the installation of axle sleeve 37 and determines
Position.In the program, square drive axis, which is connected with exporting axis on device 32, increases axle sleeve 37, in fixed square drive axis, axle sleeve 37
Tightly wrap up column square drive axis, so that it may guarantee that rectangular center transmission shaft 32 center of device that is connected with exporting axis is consistent, reduce
Shaking when actuator is run.Further in preferred embodiment, fixing screws 38 are additionally provided on output shaft connector 32, it is fixed
Screw 38 passes through one end angle phase of output shaft connector 32 and notch 373 and square drive axis through 37 side round part 371 of axle sleeve
It supports, positions square drive axis completely by fixing screws 38, stability is more preferable, prevents the axial runout of square drive axis.
As shown in Fig. 4 ~ 6, the geared system includes bottom plate 41 and top plate 42, and be located in bottom plate 41 and top plate 42 it
Between driving gear component and feedback gear component, the output end of above-mentioned driving motor 2 is by driving gear component driving side
The rotation of shape transmission shaft, specifically, driving gear component includes the motor gear 43 being connected on the output shaft of driving motor 2,
And be connected to the output gear 44 on 31 side of output shaft attachment base, and between motor gear 43 and output gear 44 according to
Multiple driving cogs of secondary engaged transmission, the driving cog particular number is not unique, multiple driving cogs as shown in the figure include according to
Secondary the first driving cog 45 being meshed, the second driving cog 46, third driving cog 47 and the 4th driving cog 48, the first driving cog 45 with
Motor gear 43 is meshed, and the 4th driving cog 48 is meshed with output gear 44.During driving motor 2 exports, motor gear
43, the first driving cog 45, the second driving cog 46, third driving cog 47, the 4th driving cog 48 and output gear 44 successively engage biography
It is dynamic, it realizes and output shaft attachment base 31 is driven to rotate, and limited post is installed in bottom plate 41 or top plate 42, it can be for output shaft
The slewing area of attachment base 31 is defined.Above-mentioned motor gear 43, the first driving cog 45, the second driving cog 46, third transmission
The engaging structure of tooth 47, the 4th driving cog 48 and output gear 44 is the conventional technical means in machinery field, therefore is not made in detail
It records.
Above-mentioned driving gear component provides a kind of drive mechanism of the drive of driving motor 2 output shaft attachment base 31, driving electricity
The output quantity of machine 2 determines dampers angular, and in order to avoid power-off or motor damage when, need that a solution is arranged in actuator
Lock set, the drive connection being connected with exporting axis between seat 31 for temporarily releasing driving motor 2.Thus in the case, it passes
In multiple driving cogs in movable tooth wheel assembly at least one driving cog can activity, realize the engagement of driving cog adjacent thereto with
It is detached from.Such as Fig. 4, in embodiment shown in 6 ~ 8, the first driving cog 45, the second driving cog 46, third driving cog 47 and the 4th are passed
The first driving cog 45 in movable tooth 48 is activity setting, it is specific as shown, the first driving cog 45 by the first locating shaft 451 into
Row positioning, the first driving cog 45 can be adjusted axially realization and motor gear 43, the second driving cog 46 with respect to the first locating shaft 451
Disengaging or engagement, be arranged with volute spring 452 on the first locating shaft 451 of the lower section of the first driving cog 45, actuator further includes
It can act on the release lever component of the first driving cog 45.When external force is when release lever component, release lever component
The first driving cog 45 is pushed, the first driving cog 45 is made axially to move down and be separated with motor gear 43 and the second driving cog 46, it is real
It now unlocks, the first driving cog 45 pushes volute spring 452 at this time, and volute spring 452 is made to generate deformation;When release lever component is multiple
Behind position, release lever component cancels the pressure of the first driving cog 45, therefore under the action of volute spring 452, the first transmission
Tooth 45 is axial to be moved up and is meshed with motor gear 43 and the second driving cog 46, and unlock releases.In the program, the volute spring
The 452 head bendings contacted with the first driving cog 45, so that volute spring 452 is fractureed fracture will not be with high-speed rotation (500 ~ 800
Rev/min) the contact of the first driving cog 45, prevent plane of rupture sharp burrs from scratching the first driving cog 45, reduce abrasion, and subtract
Small first driving cog 45 is beated, and stability is increased, and reduces noise.
As shown in Fig. 6 ~ 11, the implementable solution of the release lever component is more, in general only needs to include guide post
51, and the release lever 52 being movably set in guide post 51, guide post 51 be vertically located on bottom plate 41, unlocks hand
Handle 52 is set in guide post 51 and can unlock in the axial up and down adjustment of guide post 51, release lever 52 at least provided with one
Arm 521 acts on the first driving cog 45, can push or discharge the first driving cog 45 by adjusting the height of release lever 52.When
So, in order to which 52 component of release lever is easy to use and the stability of structure, 52 component of release lever in the present embodiment is also wrapped
The return spring 53 for being sheathed on 52 lower section of release lever is included, and acts on the unblock button 54 of release lever 52.Wherein, described
The lower end of release lever 52 is equipped with annular portion 522, and the top of annular portion 522 is equipped with projecting ring section 523;The lower end of return spring 53 with
Bottom plate 41 offsets, and return spring 53 offsets around 522 outside of annular portion, upper end and the projecting ring section 523 of return spring 53 is coated on.
Since the outer diameter of projecting ring section 523 is greater than guide post 51, the outer diameter of return spring 53 is greater than guide post 51, in order to press in unlock
When tight return spring 53,53 bottom of return spring will not be crooked, increases spring stability;Therefore under the return spring 53
End rotates inward a circle, wraps guide post 51.Above-mentioned unblock button 54 is mounted on shell 1, and it at least partially reveals
For shell 1 so as to operate on it staff, and unblock button 54 can be with shell 1 in pressed status
It forms buckle to fix, so that unlocked state can still be maintained after removing external force, and above-mentioned unlock must be released in external force and pressed
The snapping relationship of button 54 and shell 1 could realize reset under the action of return spring 53.Specifically in the present embodiment, described
Shell 1 includes pedestal 11, and the upper cover 12 of covering on the pedestal 11;12 side wall of upper cover is equipped with upper cover notch 13 and is used for
Unblock button 54 is placed, unblock button 54 is specific as shown in figure 11, button body 541 and turret terminal including integrated injection molding
The middle part of plate 542, button end plate 542 is connect with button body 541 by dowel 543, button end plate 542 and button body
The upper gap 544 and lower gap 545 for being in about 543 two sides of dowel are constituted between 541.Since unblock button 54 is not molded material
Material is made, and has elastic properties of materials, therefore the button end plate 542 in unblock button 54 can be centered on dowel 543, class lever
The gap size in gap 544 and lower gap 545 in the adjustment of formula, the gap of upper gap 544 and lower gap 545 in its natural state
Size is identical.The upper end of the button end plate 542 is equipped with buckle step 546, the side wall of upper cover 12 be in buckle step 546 with
Between button body 541;In non-unlocked state, the outer side surface of the inner end and upper cover 12 that buckle step 546 offsets, at this time
Upper gap 544 is bigger than the gap in lower gap 545.When the pushing of unblock button 54 reaches unlocked state, 542 elasticity of button end plate is multiple
Position, upper gap 544 is identical with the gap size in lower gap 545, buckles 13 edge card of upper cover notch of step 546 and upper cover 12
Button;External force, which is removed above-mentioned buckle structure, at this time can still be maintained unlocked state.When needing to release unlocked state, need outer
Power acts on the lower end of button end plate 542, and the upper end of button end plate 542 is tilted outward due to leverage at this time, releases
Buckle step 546 and 13 edge snapping relationship of upper cover notch;And under the action of return spring 53, unblock button 54 is lifted, card
The outer side surface of the inner end and upper cover 12 of detaining step 546 offsets and is in non-unlocked state.Using 52 groups of above-mentioned release lever
Part, the unblock button 54 in 52 component of release lever can be buckled with shell 1 fixes, and solution can still be maintained after removing external force
Lock status;Therefore operator can vacate hand and carry out other operations, use is more square without pinning unblock button 54 always
Just.
Above-mentioned Electric Actuator finally drives the rotation of square drive axis by driving motor 2, so as to adjust dampers angular, wind
Door angle is adjusted between 0 ~ 90 °, therefore needs to provide feedback in the proper angular position of door opening, is driven to close in time
Dynamic motor 2 avoids the excessive the case where exporting of driving motor 2.Therefore, the Electric Actuator further includes feedback switch group
Part, feedback switch component in time control driving motor 2 brake, and the feedback gear component in said gear device be used for
Feedback switch component feeds back the opening angle of air door, and triggers feedback switch component in predetermined angular.As shown in Figures 4 and 5, described
Feedback gear component includes the attachment base feedback teeth portion 311 being arranged on output shaft attachment base 31, and feeds back tooth with attachment base
Portion 311 is meshed the feedback fan tooth 49 of transmission, and the feedback gear 40 of transmission of being meshed with feedback fan tooth 49.The rectangular biography
Moving axis is connected on output shaft attachment base 31, in 31 rotation process of output shaft attachment base, by attachment base feedback teeth portion 311, instead
Feedback fan tooth 49 and feedback gear 40 are turned angle feed-back to feedback switch component.Described feedback switch component such as Figure 12 ~
Shown in 14, including the fixation camshaft 61 being fixedly connected with feedback gear 40, and it is set in adjustable on fixed camshaft 61
Adjusting knob 63 on camshaft 62, and connection adjustable convex wheel shaft 62, and the microswitch seat 64 of setting on the pedestal 11.
For the fixed camshaft 61 with 40 synchronous rotary of feedback gear, it is convex that fixed camshaft 61 is equipped with the first cam part 611 and second
Wheel portion 612;Circumferential linkage is realized between adjustable convex wheel shaft 62 and fixed camshaft 61 within the scope of the dynamics of restriction, and is more than above-mentioned
Dynamics range can then make adjustable convex wheel shaft 62 and fixed camshaft 61 generates circumferentially opposed movement, and adjustable convex wheel shaft 62 is equipped with the
Three cam parts 621, the adjusting knob 63 realize circumferential linkage using grafting with adjustable convex wheel shaft 62.First cam part
611, the second cam part 612 and third cam part 621 are in axial direction arranged, and are in different positions in circumferencial direction;It is micro-
Dynamic switch base 64, which is equipped with, is distributed corresponding first with the first cam part 611, the second cam part 612 and third cam part 621
Microswitch 641, the second microswitch 642 and third microswitch 643.First cam part 611 triggers the first fine motion and opens
Closing 641, perhaps the second cam part 612 triggers the second microswitch 642 or third cam part 621 triggers third microswitch
643 can make 2 brake application stoping of driving motor;And the first cam part 611 triggers the first microswitch 641 and the second cam part
612 the second microswitches 642 of triggering are 0 ° and 90 ° for corresponding respectively to dampers angular.In current Electric Actuator generally all
Above-mentioned two groups of trigger architectures be will include for feeding back switching and fully opening completely for air door, but it lacks in door opening angle
Shutdown feedback between 0 ~ 90 °, therefore can only be by taking shutdown in time after manually external equipment being used to observe dampers angular.
And it attached the third cam part 621 on adjustable convex wheel shaft 62 and corresponding third microswitch 643 in this programme;
And when being more than restriction dynamics range, adjustable convex wheel shaft 62 and fixed camshaft 61 generate circumferentially opposed movement, therefore can lead to
Crossing external force adjustable convex wheel shaft 62 makes it rotate (in figure, realizing by rotation of adjustment knob 63), and makes third cam part
621 correspond to different dampers angulars.As shown in Figure 12, adjusting knob 63 is embedded in inside upper cover 12, then can pass through screw
Knife, which turns, rotates adjusting knob 63, so then defines that needing professional to be adjusted by tool has evaded other people
Any operation;In addition, 12 surface of the upper cover mark on 63 periphery of adjusting knob is angled, after intuitively embodying adjusting
Air port size.In above-mentioned Electric Actuator, output shaft attachment base 31 rotates under the action of driving motor 2, output shaft attachment base
Attachment base feedback teeth portion 311 on 31 rotates synchronously, and drives feedback gear 40 to rotate by feedback fan tooth 49.And feedback gear
Fixation camshaft 61 thereon is driven to rotate in 40 rotation processes, in fixed 61 rotation process of camshaft, the touching of the first cam part 611
Send out the first microswitch 641 and the second cam part 612 trigger the second microswitch 642 be correspond respectively to 0 ° of dampers angular and
90°;Meanwhile fixed camshaft 61 also will drive the rotation of adjustable convex wheel shaft 62, the third cam part 621 on adjustable convex wheel shaft 62 is touched
Third microswitch 643 is sent out to be used to shut down in 0 ~ 90 ° of air port range internal trigger of setting;And pass through external force rotation of adjustment knob 63
Circumferentially opposed movement is generated to drive adjustable convex wheel shaft 62 and fix camshaft 61, then third cam part 621 can be made to correspond to not
Same dampers angular.In above scheme, week is realized within the scope of the dynamics of restriction between adjustable convex wheel shaft 62 and fixed camshaft 61
Specific embodiment to linkage is as shown in figure 14, and the inside of adjustable convex wheel shaft 62 is equipped with spline 622, fixed camshaft 61
Upper end is circumferentially with multi-disc support claw 613 along it, and 62 set 34 of adjustable convex wheel shaft connects when on fixed camshaft 61, fixed cam
Multi-disc support claw 613 on axis 61 is penetrated in spline 622 by 62 bottom of adjustable convex wheel shaft, is set on the lateral wall of support claw 613
There is the tooth matched with spline 622.When fixed camshaft 61 links with adjustable convex wheel shaft 62, adjustable convex wheel shaft 62 and solid
The multiple support claw 613(for determining 61 top of camshaft are 4 as shown in the figure) it is linked together by spline.When adjustable convex wheel shaft 62
When relatively fixed camshaft 61 moves, fixed camshaft 61 is due to connecting and can not rotate with feedback gear 40, fixed camshaft 61
On 4 support claws 613 be inwardly squeezed and deformed, make to relatively rotate between adjustable convex wheel shaft 62 and fixed camshaft 61 to random angle
After degree, adjusting knob 63 is unclamped, 4 support claws 613 are connect with adjustable cam again at the top of fixed cam, complete to adjust angle function
Energy.Using the above scheme, suitable air port opening angle can be adjusted in Electric Actuator as needed, to realize quickly quasi-
Really position adjustment air port opening angle.
In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show
The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example
Point is contained at least one embodiment or example of the utility model.In the present specification, to the schematic table of above-mentioned term
Stating may not refer to the same embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be
It can be combined in any suitable manner in any one or more embodiment or examples.
Although the embodiments of the present invention have been shown and described above, it is to be understood that above-described embodiment is
Illustratively, it should not be understood as limiting the present invention, those skilled in the art are not departing from the utility model
Principle and objective in the case where above-described embodiment can be changed in the scope of the utility model, modify, replace and
Modification.
In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show
The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example
Point is contained at least one embodiment or example of the utility model.In the present specification, to the schematic table of above-mentioned term
Stating may not refer to the same embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be
It can be combined in any suitable manner in any one or more embodiment or examples.
Although the embodiments of the present invention have been shown and described above, it is to be understood that above-described embodiment is
Illustratively, it should not be understood as limiting the present invention, those skilled in the art are not departing from the utility model
Principle and objective in the case where above-described embodiment can be changed in the scope of the utility model, modify, replace and
Modification.
Claims (10)
1. a kind of Electric Actuator, including shell, and the geared system and driving motor of setting inside housings, and setting
Drive shaft connection arrangement on shell, and the feedback switch component for controlling driving motor braking in time;Its feature exists
In: the geared system includes bottom plate and top plate, and the driving gear component and feedback tooth of positioning between the bottom panel and top panel
Wheel assembly;Driving gear component includes the motor gear being connected on the output shaft of driving motor, and is connected to output shaft company
Output gear on joint chair side, and successively multiple driving cogs of engaged transmission between motor gear and output gear;It is more
A driving cog includes the first driving cog being successively meshed, the second driving cog, third driving cog and the 4th driving cog, the first transmission
Tooth is meshed with motor gear, and the 4th driving cog is meshed with output gear;First driving cog is determined by the first locating shaft
Position, the first driving cog can be adjusted axially with respect to the first locating shaft realization and motor gear, the second driving cog disengaging or engage;
The feedback gear component includes the attachment base feedback teeth portion being arranged on output shaft attachment base, and feeds back teeth portion with attachment base
Be meshed the feedback fan tooth of transmission, and the feedback gear of transmission of being meshed with feedback fan tooth;Feedback gear and feedback switch group
Part is connected.
2. a kind of Electric Actuator according to claim 1, it is characterised in that: the feedback switch component includes and feedback
The fixation camshaft that gear is fixedly connected, and the adjustable convex wheel shaft being set on fixed camshaft, and connection adjustable cam
Adjusting knob on axis, and the microswitch seat being set on the base;The fixed camshaft with feedback gear synchronous rotary,
Fixed camshaft is equipped with the first cam part and the second cam part;Dynamics model is being limited between adjustable convex wheel shaft and fixed camshaft
It encloses interior realization circumferentially to link, so that adjustable convex wheel shaft and fixed camshaft is generated circumferentially opposed fortune more than dynamics range is limited
Dynamic, adjustable convex wheel shaft is equipped with third cam part;First cam part, the second cam part and third cam part are in axial direction
Arrangement;The microswitch seat is equipped with and the first cam part, the second cam part and third cam part distribution corresponding first
Microswitch, the second microswitch and third microswitch.
3. a kind of Electric Actuator according to claim 2, it is characterised in that: the adjusting knob is adopted with adjustable convex wheel shaft
Circumferential linkage is realized with grafting.
4. a kind of Electric Actuator according to claim 2, it is characterised in that: the adjusting knob is embedded in upper cover
The upper lid surface mark in portion, adjusting knob periphery is angled.
5. a kind of Electric Actuator according to claim 2, it is characterised in that: the inside of the adjustable convex wheel shaft is equipped with flower
The upper end of keyway, fixed camshaft is circumferentially with multi-disc support claw along it, when adjustable cam axis is socketed on fixed camshaft,
Multi-disc support claw on fixed camshaft is penetrated in spline by adjustable convex axle end, and the lateral wall of support claw is equipped with and flower
The tooth that keyway matches.
6. a kind of Electric Actuator according to claim 1, it is characterised in that: further include the solution for acting on the first driving cog
Handleset is locked, is arranged with volute spring on the first locating shaft below the first driving cog;The release lever component, including lead
Xiang Zhu, and the release lever being movably set in guide post;Guide post is vertically located on bottom plate, and release lever, which is set in, leads
And it can be along guide post axial direction up and down adjustment on column;It further include the return spring being sheathed below release lever, and effect
In the unblock button of release lever;The unblock button is mounted on shell, and being at least partially exposed to shell makes work people
Member can operate on it, and unblock button can form buckle with shell in pressed status and fix.
7. a kind of Electric Actuator according to claim 6, it is characterised in that: the lower end of the release lever is equipped with annulus
The top in portion, annular portion is equipped with projecting ring section;The lower end of return spring offsets with bottom plate, and the lower end of return spring rotates inward one
Circle wraps guide post;Around being coated on the outside of annular portion, upper end and the projecting ring section of return spring offset return spring.
8. a kind of Electric Actuator according to claim 6, it is characterised in that: the shell includes pedestal, and covering
Upper cover on pedestal;It includes one note that the upper cover side wall, which is equipped with upper cover notch for placing unblock button, unblock button,
Mould molding button body and button end plate, the middle part of button end plate is connect with button body by dowel, button end plate with
Upper gap and lower gap in two sides above and below dowel are constituted between button body;The upper end of the button end plate is equipped with card
Step is detained, the side wall of upper cover is between buckle step and button body;In non-unlocked state, buckle the inner end of step with
The outer side surface of upper cover offsets;When unlocked, button end plate elastic reset buckles the upper cover gap edge of step and upper cover
Buckle.
9. a kind of Electric Actuator according to claim 1, it is characterised in that: the drive shaft connection arrangement includes connection
On geared system terminal part and by the output shaft attachment base of geared system driving rotation, and it is fixed on output shaft attachment base
Output shaft connector, and the adjusting component being connected on output shaft connector;The adjusting component includes that U-shaped adjusts branch
Frame, U-shaped adjusting bracket are adjusted by two U-shaped arms relative to output shaft connector, adjust direction along the axial direction of U-shaped arm;
It is additionally provided with and holds down assembly on the output shaft connector, hold down assembly including the compression in the U-shaped opening in U-shaped adjusting bracket
Block, and the adjusting screw rod that the driving compact heap is adjusted relative to U-shaped adjusting bracket, the U-shaped of compact heap and U-shaped adjusting bracket
The clamping opening of positioning square drive axis is constituted between bottom.
10. a kind of Electric Actuator according to claim 9, it is characterised in that: two U-shapeds of the U-shaped adjusting bracket
Arm passes through output shaft connector, and U-shaped arm is being thread segment close to one section of U-shaped opening, is connected with nut on thread segment, turns spiral shell
Mother can adjust the position of U-shaped adjusting bracket;The adjusting screw rod is threaded through in the U-shaped opening of U-shaped adjusting bracket and and U-shaped
The U-shaped arm of adjusting bracket is parallel, and adjusting screw rod is engaged relative to output shaft connector screw thread, the inner end and pressure of adjusting screw rod
Tight block offsets.
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CN201920140932.4U CN209638516U (en) | 2019-01-28 | 2019-01-28 | A kind of Electric Actuator |
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CN201920140932.4U CN209638516U (en) | 2019-01-28 | 2019-01-28 | A kind of Electric Actuator |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109751449A (en) * | 2019-01-28 | 2019-05-14 | 宁波浒江自控设备有限公司 | A kind of Electric Actuator |
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2019
- 2019-01-28 CN CN201920140932.4U patent/CN209638516U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109751449A (en) * | 2019-01-28 | 2019-05-14 | 宁波浒江自控设备有限公司 | A kind of Electric Actuator |
CN109751449B (en) * | 2019-01-28 | 2024-05-03 | 宁波浒江自控设备有限公司 | Electric actuator |
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Address after: 315300 No.1, lichui Road, chaotang Industrial Park, Zonghan street, Cixi City, Ningbo City, Zhejiang Province Patentee after: NINGBO HOOCON AUTOMATION CONTROL EQUIPMENT Co.,Ltd. Address before: 315301 No.298, chaotang Industrial Park, Zonghan street, Cixi City, Ningbo City, Zhejiang Province Patentee before: NINGBO HOOCON AUTOMATION CONTROL EQUIPMENT Co.,Ltd. |